Google Git
Sign in
apache / openjpa / a7708636e3d5440fa071075e94d726b50689a82b / . / openjpa-kernel / src / main / java / org / apache / openjpa / kernel / StateManagerImpl.java
blob: e9dfca8138531d02c444ff162005f05776508e33 [file] [log] [blame]
/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
package org.apache.openjpa.kernel;
import java.io.IOException;
import java.io.NotSerializableException;
import java.io.ObjectInputStream;
import java.io.ObjectOutput;
import java.io.ObjectOutputStream;
import java.io.Serializable;
import java.lang.reflect.Modifier;
import java.sql.Timestamp;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.BitSet;
import java.util.Calendar;
import java.util.Comparator;
import java.util.Date;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Objects;
import java.util.TimeZone;
import java.util.concurrent.locks.ReentrantLock;
import org.apache.openjpa.conf.OpenJPAConfiguration;
import org.apache.openjpa.enhance.DynamicPersistenceCapable;
import org.apache.openjpa.enhance.FieldManager;
import org.apache.openjpa.enhance.ManagedInstanceProvider;
import org.apache.openjpa.enhance.PCRegistry;
import org.apache.openjpa.enhance.PersistenceCapable;
import org.apache.openjpa.enhance.RedefinitionHelper;
import org.apache.openjpa.enhance.StateManager;
import org.apache.openjpa.event.LifecycleEvent;
import org.apache.openjpa.event.LifecycleEventManager;
import org.apache.openjpa.lib.util.Localizer;
import org.apache.openjpa.meta.AccessCode;
import org.apache.openjpa.meta.ClassMetaData;
import org.apache.openjpa.meta.FetchGroup;
import org.apache.openjpa.meta.FieldMetaData;
import org.apache.openjpa.meta.JavaTypes;
import org.apache.openjpa.meta.UpdateStrategies;
import org.apache.openjpa.meta.ValueMetaData;
import org.apache.openjpa.meta.ValueStrategies;
import org.apache.openjpa.util.ApplicationIds;
import org.apache.openjpa.util.Exceptions;
import org.apache.openjpa.util.ImplHelper;
import org.apache.openjpa.util.InternalException;
import org.apache.openjpa.util.InvalidStateException;
import org.apache.openjpa.util.ObjectNotFoundException;
import org.apache.openjpa.util.OpenJPAId;
import org.apache.openjpa.util.ProxyManager;
import org.apache.openjpa.util.RuntimeExceptionTranslator;
import org.apache.openjpa.util.UserException;
/**
* Implementation of the {@link OpenJPAStateManager} interface for use
* with this runtime. Each state manager manages the state of a single
* persistence capable instance. The state manager is also responsible for
* all communications about the instance to the {@link StoreManager}.
* The state manager uses the State pattern in both its interaction with
* the governed instance and its interaction with the broker.
* In its interactions with the persistence capable instance, it uses the
* {@link FieldManager} interface. Similarly, when interacting with the
* broker, it uses the {@link PCState} singleton that represents
* the current lifecycle state of the instance.
*
* @author Abe White
*/
public class StateManagerImpl implements OpenJPAStateManager, Serializable {
private static final long serialVersionUID = 1L;
public static final int LOAD_FGS = 0;
public static final int LOAD_ALL = 1;
public static final int LOAD_SERIALIZE = 2;
private static final int FLAG_SAVE = 2 << 0;
private static final int FLAG_DEREF = 2 << 1;
private static final int FLAG_LOADED = 2 << 2;
private static final int FLAG_READ_LOCKED = 2 << 3;
private static final int FLAG_WRITE_LOCKED = 2 << 4;
private static final int FLAG_OID_ASSIGNED = 2 << 5;
private static final int FLAG_LOADING = 2 << 6;
private static final int FLAG_PRE_DELETING = 2 << 7;
private static final int FLAG_FLUSHED = 2 << 8;
private static final int FLAG_PRE_FLUSHED = 2 << 9;
private static final int FLAG_FLUSHED_DIRTY = 2 << 10;
private static final int FLAG_IMPL_CACHE = 2 << 11;
private static final int FLAG_INVERSES = 2 << 12;
private static final int FLAG_NO_UNPROXY = 2 << 13;
private static final int FLAG_VERSION_CHECK = 2 << 14;
private static final int FLAG_VERSION_UPDATE = 2 << 15;
private static final int FLAG_DETACHING = 2 << 16;
private static final int FLAG_EMBED_DEREF = 2 << 17;
private static final Localizer _loc = Localizer.forPackage
(StateManagerImpl.class);
// information about the instance
private transient PersistenceCapable _pc = null;
protected transient ClassMetaData _meta = null;
protected BitSet _loaded = null;
// Care needs to be taken when accessing these fields as they will can be null if no fields are
// dirty, or have been flushed.
private BitSet _dirty = null;
private BitSet _flush = null;
private BitSet _delayed = null;
private int _flags = 0;
// id is the state manager identity; oid is the persistent identity. oid
// may be null for embedded and transient-transactional objects or new
// instances that haven't been assigned an oid. id is reassigned to oid
// on successful oid assignment (or flush completion if assignment is
// during flush)
private Object _id = null;
private Object _oid = null;
// the managing persistence manager and lifecycle state
private transient BrokerImpl _broker; // this is serialized specially
protected PCState _state = PCState.TRANSIENT;
// the current and last loaded version indicators, and the lock object
protected Object _version = null;
protected Object _loadVersion = null;
private Object _lock = null;
private int _readLockLevel = -1;
private int _writeLockLevel = -1;
// delegates when providing/replacing instance data
private SingleFieldManager _single = null;
private SaveFieldManager _saved = null;
private FieldManager _fm = null;
// impldata; field impldata and intermediate data share the same array
private Object _impl = null;
protected Object[] _fieldImpl = null;
// information about the owner of this instance, if it is embedded
private StateManagerImpl _owner = null;
// for embeddable object from query result
private Object _ownerId = null;
private int _ownerIndex = -1;
private List<FieldMetaData> _mappedByIdFields = null;
private transient ReentrantLock _instanceLock = null;
private int _datePrecision = -1;
/**
* <p>set to <code>false</code> to prevent the postLoad method from
* sending lifecycle callback events.</p>
* <p>Callbacks are enabled by default</>
*/
private boolean postLoadCallback = true;
/**
* Constructor; supply id, type metadata, and owning persistence manager.
*/
protected StateManagerImpl(Object id, ClassMetaData meta, BrokerImpl broker) {
_id = id;
_meta = meta;
_broker = broker;
_single = new SingleFieldManager(this, broker);
if (broker.getMultithreaded())
_instanceLock = new ReentrantLock();
if (_meta.getIdentityType() == ClassMetaData.ID_UNKNOWN && !_meta.isEmbeddable())
throw new UserException(_loc.get("meta-unknownid", _meta));
}
/**
* Create a new StateManager instance based on the StateManager provided. A
* new PersistenceCapable instance will be created and associated with the
* new StateManager. All fields will be copied into the ne PC instance as
* well as the dirty, loaded, and flushed bitsets.
*
* @param sm A statemanager instance which will effectively be cloned.
*/
public StateManagerImpl(StateManagerImpl sm) {
this(sm, sm.getPCState());
}
/**
* Create a new StateManager instance, optionally overriding the state
* (FLUSHED, DELETED, etc) of the underlying PersistenceCapable instance).
*
* @param sm
* A statemanager instance which will effectively be cloned.
* @param newState
* The new state of the underlying persistence capable object.
*/
public StateManagerImpl(StateManagerImpl sm, PCState newState) {
this(sm.getId(), sm.getMetaData(), sm.getBroker());
PersistenceCapable origPC = sm.getPersistenceCapable();
_pc = origPC.pcNewInstance(sm, false);
int[] fields = new int[sm.getMetaData().getFields().length];
for (int i = 0; i < fields.length; i++) {
fields[i] = i;
}
_pc.pcCopyFields(origPC, fields);
_pc.pcReplaceStateManager(this);
_state = newState;
// clone the field bitsets.
_dirty=(BitSet)sm.getDirty().clone();
_loaded = (BitSet)sm.getLoaded().clone();
_flush = (BitSet) sm.getFlushed().clone();
_version = sm.getVersion();
_oid = sm.getObjectId();
_id = sm.getId();
// more data may need to be copied.
}
/**
* Set the owning state and field if this is an embedded instance.
*/
void setOwner(StateManagerImpl owner, ValueMetaData ownerMeta) {
_owner = owner;
_ownerIndex = ownerMeta.getFieldMetaData().getIndex();
}
/**
* Whether this state manager is in the middle of a load.
*/
boolean isLoading() {
return (_flags & FLAG_LOADING) > 0;
}
/**
* Whether this state manager is in the middle of a load initiated
* by outside code; for any internal methods that cause loading, the
* loading flag is set automatically.
*/
void setLoading(boolean loading) {
if (loading)
_flags |= FLAG_LOADING;
else
_flags &= ~FLAG_LOADING;
}
/**
* Set or reset the lifecycle state of the managed instance. If the
* transactional state of the instance changes, it will be enlisted/
* delisted from the current transaction as necessary. The given
* state will be initialized after being set. If the given state
* is the same as the current state, this method will have no effect.
*/
private void setPCState(PCState state) {
if (_state == state)
return;
PCState prev = _state;
lock();
try {
// notify the store manager that we're changing states; can veto
_broker.getStoreManager().beforeStateChange(this, _state, state);
// replace state
boolean wasDeleted = _state.isDeleted();
boolean wasDirty = _state.isDirty();
boolean wasPending = _state.isPendingTransactional();
_state = state;
// enlist/delist from transaction
if (_state.isTransactional()) {
_broker.addToTransaction(this);
if (_state.isDeleted() != wasDeleted)
_broker.setDirty(this, !wasDirty || isFlushed());
else if (_state.isDirty() && !wasDirty)
_broker.setDirty(this, true);
} else if (!wasPending && _state.isPendingTransactional())
_broker.addToPendingTransaction(this);
else if (wasPending && !_state.isPendingTransactional())
_broker.removeFromPendingTransaction(this);
else
_broker.removeFromTransaction(this);
_state.initialize(this, prev);
if (_state.isDeleted() && !wasDeleted)
fireLifecycleEvent(LifecycleEvent.AFTER_DELETE);
} finally {
unlock();
}
}
//////////////////////////////////////
// OpenJPAStateManager implementation
//////////////////////////////////////
@Override
public void initialize(Class cls, PCState state) {
// check to see if our current object id instance is the
// correct id type for the specified class; this is for cases
// when we have an application id hierarchy and we had set the
// metadata to a superclass id -- the subclass' id may be a
// different class, so we need to reset it
if (_meta.getDescribedType() != cls) {
ClassMetaData sub = _meta.getRepository().getMetaData
(cls, _broker.getClassLoader(), true);
if (_oid != null) {
if (_meta.getIdentityType() == ClassMetaData.ID_DATASTORE)
_oid = _broker.getStoreManager().copyDataStoreId(_oid,
sub);
else if (_meta.isOpenJPAIdentity())
_oid = ApplicationIds.copy(_oid, sub);
else if (sub.getObjectIdType() != _meta.getObjectIdType()) {
Object[] pkFields = ApplicationIds.toPKValues(_oid, _meta);
_oid = ApplicationIds.fromPKValues(pkFields, sub);
}
}
_meta = sub;
}
PersistenceCapable inst = PCRegistry.newInstance(cls, this, _oid, true);
if (inst == null) {
// the instance was null: check to see if the instance is
// abstract (as can sometimes be the case when the
// class discriminator strategy is not configured correctly)
if (Modifier.isAbstract(cls.getModifiers()))
throw new UserException(_loc.get("instantiate-abstract",
cls.getName(), _oid));
throw new InternalException();
}
initialize(inst, state);
}
/**
* Initialize with the given instance and state.
*/
protected void initialize(PersistenceCapable pc, PCState state) {
if (pc == null)
throw new UserException(_loc.get("init-null-pc", _meta));
if (pc.pcGetStateManager() != null && pc.pcGetStateManager() != this)
throw new UserException(_loc.get("init-sm-pc",
Exceptions.toString(pc))).setFailedObject(pc);
pc.pcReplaceStateManager(this);
FieldMetaData[] fmds = _meta.getFields();
_loaded = new BitSet(fmds.length);
// mark primary key and non-persistent fields as loaded
for(int i : _meta.getPkAndNonPersistentManagedFmdIndexes()){
_loaded.set(i);
}
_mappedByIdFields = _meta.getMappyedByIdFields();
// record whether there are any managed inverse fields
if (_broker.getInverseManager() != null && _meta.hasInverseManagedFields())
_flags |= FLAG_INVERSES;
pc.pcSetDetachedState(null);
_pc = pc;
if (_oid instanceof OpenJPAId)
((OpenJPAId) _oid).setManagedInstanceType(_meta.getDescribedType());
// initialize our state and add ourselves to the broker's cache
setPCState(state);
if ( _oid == null ||
_broker.getStateManagerImplById(_oid, false) == null) {
_broker.setStateManager(_id, this, BrokerImpl.STATUS_INIT);
}
if (state == PCState.PNEW)
fireLifecycleEvent(LifecycleEvent.AFTER_PERSIST);
// if this is a non-tracking PC, add a hard ref to the appropriate data
// sets and give it an opportunity to make a state snapshot.
if (!isIntercepting()) {
saveFields(true);
if (!isNew())
RedefinitionHelper.assignLazyLoadProxies(this);
}
}
/**
* Whether or not data access in this instance is intercepted. This differs
* from {@link ClassMetaData#isIntercepting()} in that it checks for
* property access + subclassing in addition to the redefinition /
* enhancement checks.
*
* @since 1.0.0
*/
public boolean isIntercepting() {
if (getMetaData().isIntercepting())
return true;
// TODO:JRB Intercepting
if (AccessCode.isProperty(getMetaData().getAccessType())
&& _pc instanceof DynamicPersistenceCapable)
return true;
return false;
}
/**
* Fire the given lifecycle event to all listeners.
*/
private boolean fireLifecycleEvent(int type) {
if (type == LifecycleEvent.AFTER_PERSIST
&& _broker.getConfiguration().getCallbackOptionsInstance().getPostPersistCallbackImmediate()) {
fetchObjectId();
}
return _broker.fireLifecycleEvent(getManagedInstance(), null, _meta, type);
}
@Override
public void load(FetchConfiguration fetch) {
load(fetch, LOAD_FGS, null, null, false);
}
/**
* Load the state of this instance based on the given fetch configuration
* and load mode. Return true if any data was loaded, false otherwise.
*/
protected boolean load(FetchConfiguration fetch, int loadMode,
BitSet exclude, Object sdata, boolean forWrite) {
if (!forWrite
&& (!isPersistent() || (isNew() && !isFlushed()) || isDeleted()))
return false;
// if any fields being loaded, do state transitions for read
BitSet fields = getUnloadedInternal(fetch, loadMode, exclude);
boolean active = _broker.isActive();
if (!forWrite && fields != null)
beforeRead(-1);
// call load even if no fields are being loaded, because it takes
// care of checking if the DFG is loaded, making sure version info
// is loaded, etc
int lockLevel = calculateLockLevel(active, forWrite, fetch);
boolean ret = loadFields(fields, fetch, lockLevel, sdata);
obtainLocks(active, forWrite, lockLevel, fetch, sdata);
return ret;
}
@Override
public Object getManagedInstance() {
if (_pc instanceof ManagedInstanceProvider)
return ((ManagedInstanceProvider) _pc).getManagedInstance();
else
return _pc;
}
@Override
public PersistenceCapable getPersistenceCapable() {
return _pc;
}
@Override
public ClassMetaData getMetaData() {
return _meta;
}
@Override
public OpenJPAStateManager getOwner() {
return _owner;
}
@Override
public int getOwnerIndex() {
return _ownerIndex;
}
public void setOwner(Object oid) {
_ownerId = oid;
}
@Override
public boolean isEmbedded() {
// _owner may not be set if embed object is from query result
return _owner != null || _state instanceof ENonTransState;
}
@Override
public boolean isFlushed() {
return (_flags & FLAG_FLUSHED) > 0;
}
@Override
public boolean isFlushedDirty() {
return (_flags & FLAG_FLUSHED_DIRTY) > 0;
}
@Override
public BitSet getLoaded() {
return _loaded;
}
@Override
public BitSet getUnloaded(FetchConfiguration fetch) {
// collect fields to load from data store based on fetch configuration
BitSet fields = getUnloadedInternal(fetch, LOAD_FGS, null);
return (fields == null) ? new BitSet(0) : fields;
}
/**
* Internal version of {@link OpenJPAStateManager#getUnloaded} that avoids
* creating an empty bit set by returning null when there are no unloaded
* fields.
*/
private BitSet getUnloadedInternal(FetchConfiguration fetch, int mode,
BitSet exclude) {
if (exclude == StoreContext.EXCLUDE_ALL)
return null;
BitSet fields = null;
FieldMetaData[] fmds = _meta.getFields();
boolean load;
for (int i = 0; i < fmds.length; i++) {
if (_loaded.get(i) || (exclude != null && exclude.get(i)))
continue;
switch (mode) {
case LOAD_SERIALIZE:
load = !fmds[i].isTransient();
break;
case LOAD_FGS:
load = fetch == null || fetch.requiresFetch(fmds[i])
!= FetchConfiguration.FETCH_NONE;
break;
default: // LOAD_ALL
load = true;
}
if (load) {
if (fields == null)
fields = new BitSet(fmds.length);
fields.set(i);
}
}
return fields;
}
@Override
public StoreContext getContext() {
return _broker;
}
/**
* Managing broker.
*/
BrokerImpl getBroker() {
return _broker;
}
@Override
public Object getId() {
return _id;
}
@Override
public Object getObjectId() {
StateManagerImpl sm = this;
while (sm.getOwner() != null)
sm = (StateManagerImpl) sm.getOwner();
if (sm.isEmbedded() && sm.getOwner() == null)
return sm._ownerId;
return sm._oid;
}
@Override
public void setObjectId(Object oid) {
_oid = oid;
if (_pc != null && oid instanceof OpenJPAId)
((OpenJPAId) oid).setManagedInstanceType(_meta.getDescribedType());
}
public StateManagerImpl getObjectIdOwner() {
StateManagerImpl sm = this;
while (sm.getOwner() != null)
sm = (StateManagerImpl) sm.getOwner();
return sm;
}
@Override
public boolean assignObjectId(boolean flush) {
lock();
try {
return assignObjectId(flush, false);
} finally {
unlock();
}
}
/**
* Ask store manager to assign our oid, optionally flushing and
* optionally recaching on the new oid.
*/
boolean assignObjectId(boolean flush, boolean preFlushing) {
if (_oid != null || isEmbedded() || !isPersistent())
return true;
if (_broker.getStoreManager().assignObjectId(this, preFlushing)) {
if (!preFlushing)
assertObjectIdAssigned(true);
} else if (flush)
_broker.flush();
else
return false;
return true;
}
/**
* Make sure we were assigned an oid, and perform actions to make it
* permanent.
*
* @param recache whether to recache ourself on the new oid
*/
private void assertObjectIdAssigned(boolean recache) {
if (!isNew() || isDeleted() || isProvisional()
|| (_flags & FLAG_OID_ASSIGNED) != 0)
return;
if (_oid == null) {
if (_meta.getIdentityType() == ClassMetaData.ID_DATASTORE)
throw new InternalException(Exceptions.toString
(getManagedInstance()));
_oid = ApplicationIds.create(_pc, _meta);
}
Object orig = _id;
_id = _oid;
if (recache) {
try {
_broker.setStateManager(orig, this,
BrokerImpl.STATUS_OID_ASSIGN);
} catch (RuntimeException re) {
_id = orig;
_oid = null;
throw re;
}
}
_flags |= FLAG_OID_ASSIGNED;
}
/**
* Assign the proper generated value to the given field based on its
* value-strategy.
*/
private boolean assignField(int field, boolean preFlushing) {
OpenJPAStateManager sm = this;
while (sm != null && sm.isEmbedded())
sm = sm.getOwner();
if (sm == null)
return false;
if (!sm.isNew() || sm.isFlushed() || sm.isDeleted())
return false;
// special-case oid fields, which require us to look inside the oid
// object
FieldMetaData fmd = _meta.getField(field);
if (fmd.getDeclaredTypeCode() == JavaTypes.OID) {
// try to shortcut if possible
if (_oid != null || isEmbedded() || !isPersistent())
return true;
// check embedded fields of oid for value strategy + default value
FieldMetaData[] pks = fmd.getEmbeddedMetaData().getFields();
OpenJPAStateManager oidsm = null;
boolean assign = false;
for (int i = 0; !assign && i < pks.length; i++) {
if (pks[i].getValueStrategy() == ValueStrategies.NONE)
continue;
if (oidsm == null)
oidsm = new ObjectIdStateManager(fetchObjectField(field),
this, fmd);
assign = oidsm.isDefaultValue(i);
}
return assign && assignObjectId(!preFlushing, preFlushing);
}
// Just return if there's no value generation strategy
if (fmd.getValueStrategy() == ValueStrategies.NONE)
return false;
// Throw exception if field already has a value assigned.
// @GeneratedValue overrides POJO initial values and setter methods
if (!fmd.isValueGenerated() && !isDefaultValue(field))
throw new InvalidStateException(_loc.get(
"existing-value-override-excep", fmd.getFullName(false)));
// for primary key fields, assign the object id and recache so that
// to the user, so it looks like the oid always matches the pk fields
if (fmd.isPrimaryKey() && !isEmbedded())
return assignObjectId(!preFlushing, preFlushing);
// for other fields just assign the field or flush if needed
if (_broker.getStoreManager().assignField(this, field, preFlushing)) {
fmd.setValueGenerated(true);
return true;
}
if (!preFlushing)
_broker.flush();
return !preFlushing;
}
@Override
public Object getLock() {
return _lock;
}
@Override
public void setLock(Object lock) {
_lock = lock;
}
@Override
public Object getVersion() {
return _version;
}
@Override
public void setVersion(Object version) {
_loadVersion = version;
assignVersionField(version);
}
Object getLoadVersion() {
return _loadVersion;
}
@Override
public void setNextVersion(Object version) {
assignVersionField(version);
}
public static Timestamp roundTimestamp(Timestamp val, int datePrecision) {
// ensure that we do not insert dates at a greater precision than
// that at which they will be returned by a SELECT
int rounded = (int) Math.round(val.getNanos() / (double) datePrecision);
long time = val.getTime();
int nanos = rounded * datePrecision;
if (nanos > 999999999) {
// rollover to next second
time = time + 1000;
nanos = 0;
}
val = new Timestamp(time);
val.setNanos(nanos);
return val;
}
private void assignVersionField(Object version) {
if (version instanceof Timestamp) {
if (_datePrecision == -1) {
try {
OpenJPAConfiguration conf = _broker.getConfiguration();
Class confCls = Class.forName("org.apache.openjpa.jdbc.conf.JDBCConfigurationImpl");
if (confCls.isAssignableFrom(conf.getClass())) {
Object o = conf.getClass().getMethod("getDBDictionaryInstance").invoke(conf, (Object[]) null);
_datePrecision = o.getClass().getField("datePrecision").getInt(o);
} else {
_datePrecision = 1000;
}
} catch (Throwable e) {
_datePrecision = 1000;
}
}
version = roundTimestamp((Timestamp) version, _datePrecision);
}
_version = version;
FieldMetaData vfield = _meta.getVersionField();
if (vfield != null)
store(vfield.getIndex(), JavaTypes.convert(version, vfield.getTypeCode()));
}
@Override
public PCState getPCState() {
return _state;
}
@Override
public synchronized Object getImplData() {
return _impl;
}
@Override
public synchronized Object setImplData(Object data, boolean cacheable) {
Object old = _impl;
_impl = data;
if (cacheable && data != null)
_flags |= FLAG_IMPL_CACHE;
else
_flags &= ~FLAG_IMPL_CACHE;
return old;
}
@Override
public boolean isImplDataCacheable() {
return (_flags & FLAG_IMPL_CACHE) != 0;
}
@Override
public Object getImplData(int field) {
return getExtraFieldData(field, true);
}
@Override
public Object setImplData(int field, Object data) {
return setExtraFieldData(field, data, true);
}
@Override
public synchronized boolean isImplDataCacheable(int field) {
if (_fieldImpl == null || !_loaded.get(field))
return false;
if (_meta.getField(field).usesImplData() != null)
return false;
int idx = _meta.getExtraFieldDataIndex(field);
return idx != -1 && _fieldImpl[idx] != null;
}
@Override
public Object getIntermediate(int field) {
return getExtraFieldData(field, false);
}
@Override
public void setIntermediate(int field, Object data) {
setExtraFieldData(field, data, false);
}
/**
* Return the data from the proper index of the extra field data array.
*/
protected synchronized Object getExtraFieldData(int field, boolean isLoaded) {
// only return the field data if the field is in the right loaded
// state; otherwise we might return intermediate for impl data or
// vice versa
if (_fieldImpl == null || _loaded.get(field) != isLoaded)
return null;
int idx = _meta.getExtraFieldDataIndex(field);
return (idx == -1) ? null : _fieldImpl[idx];
}
/**
* Set the data from to proper index of the extra field data array.
*/
private synchronized Object setExtraFieldData(int field, Object data,
boolean loaded) {
int idx = _meta.getExtraFieldDataIndex(field);
if (idx == -1)
throw new InternalException(String.valueOf(_meta.getField(field)));
Object old = (_fieldImpl == null) ? null : _fieldImpl[idx];
if (data != null) {
// cannot set if field in wrong loaded state
if (_loaded.get(field) != loaded)
throw new InternalException(String.valueOf(_meta.getField
(field)));
// set data
if (_fieldImpl == null)
_fieldImpl = new Object[_meta.getExtraFieldDataLength()];
_fieldImpl[idx] = data;
} else if (_fieldImpl != null && _loaded.get(field) == loaded)
_fieldImpl[idx] = null;
return old;
}
@Override
public Object fetch(int field) {
Object val = fetchField(field, false);
return _meta.getField(field).getExternalValue(val, _broker);
}
@Override
public Object fetchField(int field, boolean transitions) {
FieldMetaData fmd = _meta.getField(field);
if (fmd == null)
throw new UserException(_loc.get("no-field",
String.valueOf(field), getManagedInstance().getClass())).
setFailedObject(getManagedInstance());
// do normal state transitions
if (!fmd.isPrimaryKey() && transitions)
accessingField(field);
switch (fmd.getDeclaredTypeCode()) {
case JavaTypes.STRING:
return fetchStringField(field);
case JavaTypes.OBJECT:
return fetchObjectField(field);
case JavaTypes.BOOLEAN:
return (fetchBooleanField(field)) ? Boolean.TRUE
: Boolean.FALSE;
case JavaTypes.BYTE:
return fetchByteField(field);
case JavaTypes.CHAR:
return fetchCharField(field);
case JavaTypes.DOUBLE:
return fetchDoubleField(field);
case JavaTypes.FLOAT:
return fetchFloatField(field);
case JavaTypes.INT:
return fetchIntField(field);
case JavaTypes.LONG:
return fetchLongField(field);
case JavaTypes.SHORT:
return fetchShortField(field);
default:
return fetchObjectField(field);
}
}
@Override
public void store(int field, Object val) {
val = _meta.getField(field).getFieldValue(val, _broker);
storeField(field, val);
}
@Override
public void storeField(int field, Object val) {
storeField(field, val, this);
}
/**
* <p>Checks whether or not <code>_pc</code> is dirty. In the cases where
* field tracking is not happening (see below), this method will do a
* state comparison to find whether <code>_pc</code> is dirty, and will
* update this instance with this information. In the cases where field
* tracking is happening, this method is a no-op.</p>
*
* <p>Fields are tracked for all classes that are run through the OpenJPA
* enhancer prior to or during deployment, and all classes (enhanced or
* unenhanced) in a Java 6 environment or newer.</p>
*
* <p>In a Java 5 VM or older:
* <br>- instances of unenhanced classes that use
* property access and obey the property access limitations are tracked
* when the instances are loaded from the database by OpenJPA, and are
* not tracked when the instances are created by application code.
* <br>- instances of unenhanced classes that use field access are
* never tracked.</p>
*
* @since 1.0.0
*/
public void dirtyCheck() {
if (!needsDirtyCheck())
return;
SaveFieldManager saved = getSaveFieldManager();
if (saved == null)
throw new InternalException(_loc.get("no-saved-fields",
getMetaData().getDescribedType().getName()));
FieldMetaData[] fmds = getMetaData().getFields();
for (int i = 0; i < fmds.length; i++) {
// pk and version fields cannot be mutated; don't mark them
// as such. ##### validate?
if (!fmds[i].isPrimaryKey() && !fmds[i].isVersion()
&& _loaded.get(i)) {
if (!saved.isFieldEqual(i, fetch(i))) {
dirty(i);
}
}
}
}
private boolean needsDirtyCheck() {
if (isIntercepting())
return false;
if (isDeleted())
return false;
if (isNew() && !isFlushed())
return false;
return true;
}
@Override
public Object fetchInitialField(int field) {
FieldMetaData fmd = _meta.getField(field);
if (_broker.getRestoreState() == RestoreState.RESTORE_NONE
&& ((_flags & FLAG_INVERSES) == 0
|| fmd.getInverseMetaDatas().length == 0))
throw new InvalidStateException(_loc.get("restore-unset"));
switch (fmd.getDeclaredTypeCode()) {
case JavaTypes.DATE:
case JavaTypes.CALENDAR:
case JavaTypes.ARRAY:
case JavaTypes.COLLECTION:
case JavaTypes.MAP:
case JavaTypes.OBJECT:
// if we're not saving mutable types, throw an exception
if (_broker.getRestoreState() != RestoreState.RESTORE_ALL
&& ((_flags & FLAG_INVERSES) == 0
|| fmd.getInverseMetaDatas().length == 0))
throw new InvalidStateException(_loc.get
("mutable-restore-unset"));
}
lock();
try {
if (_saved == null || !_loaded.get(field) || !isFieldDirty(field))
return fetchField(field, false);
// if the field is dirty but we never loaded it, we can't restore it
if (_saved.getUnloaded().get(field))
throw new InvalidStateException(_loc.get("initial-unloaded",
fmd));
provideField(_saved.getState(), _single, field);
return fetchField(_single, fmd);
} finally {
unlock();
}
}
/**
* Fetch the specified field from the specified field manager, wrapping it
* in an object if it's a primitive. A field should be provided to the
* field manager before this call is made.
*/
private static Object fetchField(FieldManager fm, FieldMetaData fmd) {
int field = fmd.getIndex();
switch (fmd.getDeclaredTypeCode()) {
case JavaTypes.BOOLEAN:
return (fm.fetchBooleanField(field)) ? Boolean.TRUE
: Boolean.FALSE;
case JavaTypes.BYTE:
return fm.fetchByteField(field);
case JavaTypes.CHAR:
return fm.fetchCharField(field);
case JavaTypes.DOUBLE:
return fm.fetchDoubleField(field);
case JavaTypes.FLOAT:
return fm.fetchFloatField(field);
case JavaTypes.INT:
return fm.fetchIntField(field);
case JavaTypes.LONG:
return fm.fetchLongField(field);
case JavaTypes.SHORT:
return fm.fetchShortField(field);
case JavaTypes.STRING:
return fm.fetchStringField(field);
default:
return fm.fetchObjectField(field);
}
}
@Override
public void setRemote(int field, Object value) {
lock();
try {
Boolean stat = dirty(field, Boolean.FALSE, false);
storeField(field, value, _single);
replaceField(_pc, _single, field);
postDirty(stat);
} finally {
unlock();
}
}
////////////////////////
// Lifecycle operations
////////////////////////
/**
* Notification that the object is about to be accessed.
*
* @param field the field number being read, or -1 if not a single
* field read
*/
void beforeRead(int field) {
// allow unmediated reads of primary key fields
if (field != -1 && _meta.getField(field).isPrimaryKey())
return;
if (_broker.isActive() && !_broker.isTransactionEnding()) {
if (_broker.getOptimistic())
setPCState(_state.beforeOptimisticRead(this, field));
else
setPCState(_state.beforeRead(this, field));
} else if (_broker.getNontransactionalRead())
setPCState(_state.beforeNontransactionalRead(this, field));
else
throw new InvalidStateException(_loc.get("non-trans-read")).
setFailedObject(getManagedInstance());
}
/**
* Delegates to the current state.
*
* @see PCState#beforeFlush
*/
void beforeFlush(int reason, OpCallbacks call) {
_state.beforeFlush(this, reason == BrokerImpl.FLUSH_LOGICAL, call);
}
/**
* Delegates to the current state.
*
* @see PCState#flush
*/
void afterFlush(int reason) {
// nothing happens when we flush non-persistent states
if (!isPersistent())
return;
if (reason != BrokerImpl.FLUSH_ROLLBACK
&& reason != BrokerImpl.FLUSH_LOGICAL) {
// analyze previous state for later
boolean wasNew = isNew();
boolean wasFlushed = isFlushed();
boolean wasDeleted = isDeleted();
boolean needPostUpdate = !(wasNew && !wasFlushed)
&& (ImplHelper.getUpdateFields(this) != null);
// all dirty fields were flushed, we are referencing the _dirty BitSet directly here
// because we don't want to instantiate it if we don't have to.
if (_dirty != null) {
getFlushed().or(_dirty);
}
// important to set flushed bit after calling _state.flush so
// that the state can tell whether this is the first flush
setPCState(_state.flush(this));
_flags |= FLAG_FLUSHED;
_flags &= ~FLAG_FLUSHED_DIRTY;
_flags &= ~FLAG_VERSION_CHECK;
_flags &= ~FLAG_VERSION_UPDATE;
// if this was an inc flush during which we had our identity
// assigned, tell the broker to cache us under our final oid
if (reason == BrokerImpl.FLUSH_INC)
assertObjectIdAssigned(true);
// if this object was stored with preFlush, do post-store callback
if ((_flags & FLAG_PRE_FLUSHED) > 0)
fireLifecycleEvent(LifecycleEvent.AFTER_STORE);
// do post-update as needed
if (wasNew && !wasFlushed)
fireLifecycleEvent(LifecycleEvent.AFTER_PERSIST_PERFORMED);
else if (wasDeleted)
fireLifecycleEvent(LifecycleEvent.AFTER_DELETE_PERFORMED);
else if (needPostUpdate)
// updates and new-flushed with changes
fireLifecycleEvent(LifecycleEvent.AFTER_UPDATE_PERFORMED);
} else if (reason == BrokerImpl.FLUSH_ROLLBACK) {
// revert to last loaded version and original oid
assignVersionField(_loadVersion);
if (isNew() && (_flags & FLAG_OID_ASSIGNED) == 0)
_oid = null;
}
_flags &= ~FLAG_PRE_FLUSHED;
}
/**
* Delegates to the current state after checking the value
* of the RetainState flag.
*
* @see PCState#commit
* @see PCState#commitRetain
*/
void commit() {
// release locks before oid updated
releaseLocks();
// update version and oid information
setVersion(_version);
_flags &= ~FLAG_FLUSHED;
_flags &= ~FLAG_FLUSHED_DIRTY;
Object orig = _id;
assertObjectIdAssigned(false);
boolean wasNew = isNew() && !isDeleted() && !isProvisional();
if (_broker.getRetainState())
setPCState(_state.commitRetain(this));
else
setPCState(_state.commit(this));
// ask the broker to re-cache us if we were new previously
if (wasNew)
_broker.setStateManager(orig, this, BrokerImpl.STATUS_COMMIT_NEW);
}
/**
* Delegates to the current state after checking the value
* of the RetainState flag.
*
* @see PCState#rollback
* @see PCState#rollbackRestore
*/
void rollback() {
// release locks
releaseLocks();
_flags &= ~FLAG_FLUSHED;
_flags &= ~FLAG_FLUSHED_DIRTY;
afterFlush(BrokerImpl.FLUSH_ROLLBACK);
if (_broker.getRestoreState() != RestoreState.RESTORE_NONE)
setPCState(_state.rollbackRestore(this));
else
setPCState(_state.rollback(this));
}
/**
* Rollback state of the managed instance to the given savepoint.
*/
void rollbackToSavepoint(SavepointFieldManager savepoint) {
_state = savepoint.getPCState();
BitSet loaded = savepoint.getLoaded();
for (int i = 0, len = loaded.length(); i < len; i++) {
if (loaded.get(i) && savepoint.restoreField(i)) {
provideField(savepoint.getCopy(), savepoint, i);
replaceField(_pc, savepoint, i);
}
}
_loaded = loaded;
_dirty = savepoint.getDirty();
_flush = savepoint.getFlushed();
_version = savepoint.getVersion();
_loadVersion = savepoint.getLoadVersion();
}
/**
* Delegates to the current state.
*
* @see PCState#persist
* @see Broker#persist
*/
void persist() {
setPCState(_state.persist(this));
}
/**
* Delegates to the current state.
*
* @see PCState#delete
* @see Broker#delete
*/
void delete() {
setPCState(_state.delete(this));
}
/**
* Delegates to the current state.
*
* @see PCState#nontransactional
* @see Broker#nontransactional
*/
void nontransactional() {
setPCState(_state.nontransactional(this));
}
/**
* Delegates to the current state.
*
* @see PCState#transactional
* @see Broker#transactional
*/
void transactional() {
setPCState(_state.transactional(this));
}
/**
* Delegates to the current state.
*
* @see PCState#nonprovisional
*/
void nonprovisional(boolean logical, OpCallbacks call) {
setPCState(_state.nonprovisional(this, logical, call));
}
/**
* Delegates to the current state.
*
* @see PCState#release
* @see Broker#release
*/
void release(boolean unproxy) {
release(unproxy, false);
}
void release(boolean unproxy, boolean force) {
// optimization for detach-in-place special case when fields are
// already (un)proxied correctly
if (!unproxy)
_flags |= FLAG_NO_UNPROXY;
try {
if (force)
setPCState(PCState.TRANSIENT);
else
setPCState(_state.release(this));
} finally {
_flags &= ~FLAG_NO_UNPROXY;
}
}
/**
* Delegates to the current state.
*
* @see PCState#evict
* @see Broker#evict
*/
void evict() {
setPCState(_state.evict(this));
}
/**
* Gather relations reachable from values using
* {@link ValueMetaData#CASCADE_IMMEDIATE}.
*/
void gatherCascadeRefresh(OpCallbacks call) {
FieldMetaData[] fmds = _meta.getFields();
for (int i = 0; i < fmds.length; i++) {
if (!_loaded.get(i))
continue;
if (fmds[i].getCascadeRefresh() == ValueMetaData.CASCADE_IMMEDIATE
|| fmds[i].getKey().getCascadeRefresh()
== ValueMetaData.CASCADE_IMMEDIATE
|| fmds[i].getElement().getCascadeRefresh()
== ValueMetaData.CASCADE_IMMEDIATE) {
_single.storeObjectField(i, fetchField(i, false));
_single.gatherCascadeRefresh(call);
_single.clear();
}
}
}
@Override
public boolean beforeRefresh(boolean refreshAll) {
// note: all logic placed here rather than in the states for
// optimization; this method public b/c used by remote package
// nothing to do for non persistent or new unflushed instances
if (!isPersistent() || (isNew() && !isFlushed()))
return false;
lock();
try {
// if dirty need to clear fields
if (isDirty()) {
clearFields();
return true;
}
// if some fields have been loaded but the instance is out of
// date or this is part of a refreshAll() and we don't want to
// take the extra hit to see if the instance is out of date, clear
if (_loaded.length() > 0 && (refreshAll || isEmbedded()
|| !syncVersion(null))) {
Object version = _version;
clearFields();
// if syncVersion just replaced the version, reset it
if (!refreshAll && !isEmbedded())
setVersion(version);
return true;
}
return false;
} finally {
unlock();
}
}
/**
* Perform state transitions after refresh. This method is only
* called if {@link #beforeRefresh} returns true.
*/
void afterRefresh() {
lock();
try {
// transition to clean or nontransactional depending on trans status
if (!_broker.isActive())
setPCState(_state.afterNontransactionalRefresh());
else if (_broker.getOptimistic())
setPCState(_state.afterOptimisticRefresh());
else
setPCState(_state.afterRefresh());
} finally {
unlock();
}
}
/**
* Mark this object as a dereferenced dependent object.
*/
void setDereferencedDependent(boolean deref, boolean notify) {
if (!deref && (_flags & FLAG_DEREF) > 0) {
if (notify)
_broker.removeDereferencedDependent(this);
_flags &= ~FLAG_DEREF;
} else if (deref && (_flags & FLAG_DEREF) == 0) {
_flags |= FLAG_DEREF;
if (notify)
_broker.addDereferencedDependent(this);
}
}
void setDereferencedEmbedDependent(boolean deref) {
if (!deref && (_flags & FLAG_EMBED_DEREF) > 0) {
_flags &= ~FLAG_EMBED_DEREF;
} else if (deref && (_flags & FLAG_EMBED_DEREF) == 0) {
_flags |= FLAG_EMBED_DEREF;
}
}
public boolean getDereferencedEmbedDependent() {
return ((_flags & FLAG_EMBED_DEREF) == 0 ? false : true);
}
///////////
// Locking
///////////
/**
* Notification that we've been read-locked. Pass in the level at which
* we were locked and the level at which we should write lock ourselves
* on dirty.
*/
void readLocked(int readLockLevel, int writeLockLevel) {
// make sure object is added to transaction so lock will get
// cleared on commit/rollback
if (readLockLevel != LockLevels.LOCK_NONE)
transactional();
_readLockLevel = readLockLevel;
_writeLockLevel = writeLockLevel;
_flags |= FLAG_READ_LOCKED;
_flags &= ~FLAG_WRITE_LOCKED;
}
/**
* Return the lock level to use when loading state.
*/
private int calculateLockLevel(boolean active, boolean forWrite,
FetchConfiguration fetch) {
if (!active)
return LockLevels.LOCK_NONE;
if (fetch == null)
fetch = _broker.getFetchConfiguration();
if (_readLockLevel == -1 || _readLockLevel < fetch.getReadLockLevel())
_readLockLevel = fetch.getReadLockLevel();
if (_writeLockLevel == -1 || _writeLockLevel < fetch.getWriteLockLevel())
_writeLockLevel = fetch.getWriteLockLevel();
return (forWrite) ? _writeLockLevel : _readLockLevel;
}
/**
* Make sure we're locked at the given level.
*/
private void obtainLocks(boolean active, boolean forWrite, int lockLevel,
FetchConfiguration fetch, Object sdata) {
if (!active)
return;
// if we haven't been locked yet, lock now at the given level
int flag = (forWrite) ? FLAG_WRITE_LOCKED : FLAG_READ_LOCKED;
if ((_flags & flag) == 0) {
// make sure object is added to transaction so lock will get
// cleared on commit/rollback
if (lockLevel != LockLevels.LOCK_NONE)
transactional();
if (fetch == null)
fetch = _broker.getFetchConfiguration();
_broker.getLockManager().lock(this, lockLevel,
fetch.getLockTimeout(), sdata);
_flags |= FLAG_READ_LOCKED;
_flags |= flag;
}
}
/**
* Release locks.
*/
private void releaseLocks() {
if (_lock != null)
_broker.getLockManager().release(this);
_readLockLevel = -1;
_writeLockLevel = -1;
_flags &= ~FLAG_READ_LOCKED;
_flags &= ~FLAG_WRITE_LOCKED;
}
////////////////////////////////////////////
// Implementation of StateManager interface
////////////////////////////////////////////
/**
* @return whether or not unloaded fields should be closed.
*/
@Override
public boolean serializing() {
// if the broker is in the midst of a serialization, then no special
// handling should be performed on the instance, and no subsequent
// load should happen
if (_broker.isSerializing())
return false;
try {
if (_meta.isDetachable())
return DetachManager.preSerialize(this);
load(_broker.getFetchConfiguration(), LOAD_SERIALIZE, null, null,
false);
return false;
} catch (RuntimeException re) {
throw translate(re);
}
}
@Override
public boolean writeDetached(ObjectOutput out)
throws IOException {
BitSet idxs = new BitSet(_meta.getFields().length);
lock();
try {
boolean detsm = DetachManager.writeDetachedState(this, out, idxs);
if (detsm)
_flags |= FLAG_DETACHING;
FieldMetaData[] fmds = _meta.getFields();
for (int i = 0; i < fmds.length; i++) {
if (fmds[i].isTransient())
continue;
provideField(_pc, _single, i);
_single.serialize(out, !idxs.get(i));
_single.clear();
}
return true;
} catch (RuntimeException re) {
throw translate(re);
} finally {
_flags &= ~FLAG_DETACHING;
unlock();
}
}
@Override
public void proxyDetachedDeserialized(int idx) {
// we don't serialize state manager impls
throw new InternalException();
}
@Override
public boolean isTransactional() {
// special case for TCLEAN, which we want to appear non-trans to
// internal code, but which publicly should be transactional
return _state == PCState.TCLEAN || _state.isTransactional();
}
public boolean isPendingTransactional() {
return _state.isPendingTransactional();
}
@Override
public boolean isProvisional() {
return _state.isProvisional();
}
@Override
public boolean isPersistent() {
return _state.isPersistent();
}
@Override
public boolean isNew() {
return _state.isNew();
}
@Override
public boolean isDeleted() {
return _state.isDeleted();
}
@Override
public boolean isDirty() {
return _state.isDirty();
}
@Override
public boolean isDetached() {
return (_flags & FLAG_DETACHING) != 0;
}
@Override
public Object getGenericContext() {
return _broker;
}
@Override
public Object fetchObjectId() {
try {
if (hasGeneratedKey() && _state instanceof PNewState &&
_oid == null)
return _oid;
assignObjectId(true);
if (_oid == null || !_broker.getConfiguration().
getCompatibilityInstance().getCopyObjectIds())
return _oid;
if (_meta.getIdentityType() == ClassMetaData.ID_DATASTORE)
return _broker.getStoreManager().copyDataStoreId(_oid, _meta);
return ApplicationIds.copy(_oid, _meta);
} catch (RuntimeException re) {
throw translate(re);
}
}
private boolean hasGeneratedKey() {
FieldMetaData[] pkFields = _meta.getPrimaryKeyFields();
for (int i = 0; i < pkFields.length; i++) {
if (pkFields[i].getValueStrategy() == ValueStrategies.AUTOASSIGN)
return true;
}
return false;
}
@Override
public Object getPCPrimaryKey(Object oid, int field) {
FieldMetaData fmd = _meta.getField(field);
Object pk = ApplicationIds.get(oid, fmd);
if (pk == null)
return null;
ClassMetaData relmeta = fmd.getDeclaredTypeMetaData();
pk = ApplicationIds.wrap(relmeta, pk);
if (relmeta.getIdentityType() == ClassMetaData.ID_DATASTORE
&& fmd.getObjectIdFieldTypeCode() == JavaTypes.LONG)
pk = _broker.getStoreManager().newDataStoreId(pk, relmeta);
else if (relmeta.getIdentityType() == ClassMetaData.ID_APPLICATION
&& fmd.getObjectIdFieldType() != relmeta.getObjectIdType())
pk = ApplicationIds.fromPKValues(new Object[] { pk }, relmeta);
return _broker.find(pk, false, null);
}
public byte replaceFlags() {
// we always use load required so that we can detect when objects
// are touched for locking or making transactional
return PersistenceCapable.LOAD_REQUIRED;
}
@Override
public StateManager replaceStateManager(StateManager sm) {
return sm;
}
@Override
public void accessingField(int field) {
// possibly change state
try {
// If this field is loaded, and not a PK field allow pass through
// TODO -- what about version fields? Could probably UT this
if(_loaded.get(field) && !_meta.getField(field).isPrimaryKey())
return;
beforeRead(field);
beforeAccessField(field);
} catch (RuntimeException re) {
throw translate(re);
}
}
@Override
public boolean isDelayed(int field) {
if (_delayed == null) {
return false;
}
return _delayed.get(field);
}
@Override
public void setDelayed(int field, boolean delay) {
if (_delayed == null) {
_delayed = new BitSet();
}
if (delay) {
_delayed.set(field);
} else {
_delayed.clear(field);
}
}
/**
* Loads a delayed access field.
*/
@Override
public void loadDelayedField(int field) {
if (!isDelayed(field)) {
return;
}
try {
beforeRead(field);
} catch (RuntimeException re) {
throw translate(re);
}
lock();
try {
boolean active = _broker.isActive();
int lockLevel = calculateLockLevel(active, false, null);
BitSet fields = new BitSet();
fields.set(field);
if (!_broker.getStoreManager().load(this, fields, _broker.getFetchConfiguration(), lockLevel, null)) {
throw new ObjectNotFoundException(_loc.get("del-instance", _meta.getDescribedType(), _oid)).
setFailedObject(getManagedInstance());
}
// Cleared the delayed bit
_delayed.clear(field);
obtainLocks(active, false, lockLevel, null, null);
} catch (RuntimeException re) {
throw translate(re);
} finally {
unlock();
}
}
/**
* Load the given field before access.
*/
protected void beforeAccessField(int field) {
lock();
try {
boolean active = _broker.isActive();
int lockLevel = calculateLockLevel(active, false, null);
if (!_loaded.get(field))
loadField(field, lockLevel, false, true);
else
assignField(field, false);
obtainLocks(active, false, lockLevel, null, null);
} catch (RuntimeException re) {
throw translate(re);
} finally {
unlock();
}
}
@Override
public void dirty(String field) {
FieldMetaData fmd = _meta.getField(field);
if (fmd == null)
throw translate(new UserException(_loc.get("no-field", field,
ImplHelper.getManagedInstance(_pc).getClass()))
.setFailedObject(getManagedInstance()));
dirty(fmd.getIndex(), null, true);
}
@Override
public void dirty(int field) {
dirty(field, null, true);
}
private boolean isEmbeddedNotUpdatable() {
// embeddable object returned from query result is not uptable
return (_owner == null && _ownerId != null);
}
/**
* Make the given field dirty.
*
* @param mutate if null, may be an SCO mutation; if true, is certainly
* a mutation (or at least treat as one)
* @return {@link Boolean#FALSE} if this instance was already dirty,
* <code>null</code> if it was dirty but not since flush, and
* {@link Boolean#TRUE} if it was not dirty
*/
private Boolean dirty(int field, Boolean mutate, boolean loadFetchGroup) {
boolean locked = false;
boolean newFlush = false;
boolean clean = false;
try {
FieldMetaData fmd = _meta.getField(field);
if (!isNew() || isFlushed()) {
if (fmd.getUpdateStrategy() == UpdateStrategies.RESTRICT)
throw new InvalidStateException(_loc.get
("update-restrict", fmd));
if (fmd.getUpdateStrategy() == UpdateStrategies.IGNORE)
return Boolean.FALSE;
}
if (isEmbedded()) {
if (isEmbeddedNotUpdatable())
throw new UserException(_loc.get
("cant-update-embed-in-query-result")).setFailedObject
(getManagedInstance());
else
// notify owner of change
_owner.dirty(_ownerIndex, Boolean.TRUE, loadFetchGroup);
}
// is this a direct mutation of an sco field?
if (mutate == null) {
switch (fmd.getDeclaredTypeCode()) {
case JavaTypes.COLLECTION:
case JavaTypes.MAP:
case JavaTypes.ARRAY:
case JavaTypes.DATE:
case JavaTypes.CALENDAR:
case JavaTypes.OBJECT:
mutate = Boolean.TRUE;
break;
case JavaTypes.PC:
mutate =
(fmd.isEmbedded()) ? Boolean.TRUE : Boolean.FALSE;
break;
default:
mutate = Boolean.FALSE; // not sco
}
}
// possibly change state
boolean active = _broker.isActive();
clean = !_state.isDirty(); // intentional direct access
// fire event fast before state change.
if (clean)
fireLifecycleEvent(LifecycleEvent.BEFORE_DIRTY);
if (active) {
if (_broker.getOptimistic())
setPCState(_state.beforeOptimisticWrite(this, field,
mutate));
else
setPCState(_state.beforeWrite(this, field,
mutate));
} else if (fmd.getManagement() == FieldMetaData.MANAGE_PERSISTENT) {
if (isPersistent() && !_broker.getNontransactionalWrite())
throw new InvalidStateException(_loc.get
("non-trans-write")).setFailedObject
(getManagedInstance());
setPCState(_state.beforeNontransactionalWrite(this, field,
mutate));
}
if ((_flags & FLAG_FLUSHED) != 0) {
newFlush = (_flags & FLAG_FLUSHED_DIRTY) == 0;
_flags |= FLAG_FLUSHED_DIRTY;
}
lock();
locked = true;
// note that the field is in need of flushing again, and tell the
// broker too
clearFlushField(field);
_broker.setDirty(this, newFlush && !clean);
// save the field for rollback if needed
saveField(field);
// dirty the field and mark loaded; load fetch group if needed
int lockLevel = calculateLockLevel(active, true, null);
if (!isFieldDirty(field)) {
setLoaded(field, true);
setFieldDirty(field);
// make sure the field's fetch group is loaded
if (loadFetchGroup && isPersistent()
&& fmd.getManagement() == FieldMetaData.MANAGE_PERSISTENT)
loadField(field, lockLevel, true, true);
}
obtainLocks(active, true, lockLevel, null, null);
} catch (RuntimeException re) {
throw translate(re);
} finally {
if (locked)
unlock();
}
if (clean)
return Boolean.TRUE;
if (newFlush) {
// this event can be fired later cause we're already dirty.
fireLifecycleEvent(LifecycleEvent.BEFORE_DIRTY_FLUSHED);
return null;
}
return Boolean.FALSE;
}
/**
* Fire post-dirty events after field value changes.
*
* @param status return value from {@link #dirty(int, Boolean, boolean)}
*/
private void postDirty(Boolean status) {
if (Boolean.TRUE.equals(status))
fireLifecycleEvent(LifecycleEvent.AFTER_DIRTY);
else if (status == null)
fireLifecycleEvent(LifecycleEvent.AFTER_DIRTY_FLUSHED);
}
@Override
public void removed(int field, Object removed, boolean key) {
if (removed == null)
return;
try {
// dereference dependent fields, delete embedded
FieldMetaData fmd = _meta.getField(field);
ValueMetaData vmd = (key) ? fmd.getKey() : fmd.getElement();
if (vmd.isEmbeddedPC())
_single.delete(vmd, removed, null);
else if (vmd.getCascadeDelete() == ValueMetaData.CASCADE_AUTO)
_single.dereferenceDependent(removed);
} catch (RuntimeException re) {
throw translate(re);
}
}
@Override
public Object newProxy(int field) {
FieldMetaData fmd = _meta.getField(field);
if (!fmd.isExternalized())
return newFieldProxy(field);
switch (fmd.getTypeCode()) {
case JavaTypes.DATE:
if (fmd.getDeclaredType() == java.sql.Date.class)
return new java.sql.Date(System.currentTimeMillis());
if (fmd.getDeclaredType() == java.sql.Timestamp.class)
return new java.sql.Timestamp(System.currentTimeMillis());
if (fmd.getDeclaredType() == java.sql.Time.class)
return new java.sql.Time(System.currentTimeMillis());
return new Date();
case JavaTypes.CALENDAR:
return Calendar.getInstance();
case JavaTypes.COLLECTION:
return new ArrayList();
case JavaTypes.MAP:
return new HashMap();
}
return null;
}
@Override
public Object newFieldProxy(int field) {
FieldMetaData fmd = _meta.getField(field);
ProxyManager mgr = _broker.getConfiguration().
getProxyManagerInstance();
Object init = fmd.getInitializer();
switch (fmd.getDeclaredTypeCode()) {
case JavaTypes.DATE:
return mgr.newDateProxy(fmd.getDeclaredType());
case JavaTypes.CALENDAR:
return mgr.newCalendarProxy(fmd.getDeclaredType(),
init instanceof TimeZone ? (TimeZone) init : null);
case JavaTypes.COLLECTION:
return mgr.newCollectionProxy(fmd.getProxyType(),
fmd.getElement().getDeclaredType(),
init instanceof Comparator ? (Comparator) init : null,
_broker.getConfiguration().getCompatibilityInstance().getAutoOff());
case JavaTypes.MAP:
return mgr.newMapProxy(fmd.getProxyType(),
fmd.getKey().getDeclaredType(),
fmd.getElement().getDeclaredType(),
init instanceof Comparator ? (Comparator) init : null,
_broker.getConfiguration().getCompatibilityInstance().getAutoOff());
}
return null;
}
@Override
public boolean isDefaultValue(int field) {
lock();
try {
_single.clear();
provideField(_pc, _single, field);
boolean ret = _single.isDefaultValue();
_single.clear();
return ret;
} finally {
unlock();
}
}
/////////////////////////////////////////////////////////
// Record that the field is dirty (which might load DFG)
/////////////////////////////////////////////////////////
@Override
public void settingBooleanField(PersistenceCapable pc, int field,
boolean curVal, boolean newVal, int set) {
if (set != SET_REMOTE) {
if (newVal == curVal && _loaded.get(field))
return;
assertNoPrimaryKeyChange(field);
}
lock();
try {
Boolean stat = dirty(field, Boolean.FALSE, set == SET_USER);
_single.storeBooleanField(field, newVal);
replaceField(pc, _single, field);
postDirty(stat);
} finally {
unlock();
}
}
@Override
public void settingByteField(PersistenceCapable pc, int field,
byte curVal, byte newVal, int set) {
if (set != SET_REMOTE) {
if (newVal == curVal && _loaded.get(field))
return;
assertNoPrimaryKeyChange(field);
}
lock();
try {
Boolean stat = dirty(field, Boolean.FALSE, set == SET_USER);
_single.storeByteField(field, newVal);
replaceField(pc, _single, field);
postDirty(stat);
} finally {
unlock();
}
}
@Override
public void settingCharField(PersistenceCapable pc, int field,
char curVal, char newVal, int set) {
if (set != SET_REMOTE) {
if (newVal == curVal && _loaded.get(field))
return;
assertNoPrimaryKeyChange(field);
}
lock();
try {
Boolean stat = dirty(field, Boolean.FALSE, set == SET_USER);
_single.storeCharField(field, newVal);
replaceField(pc, _single, field);
postDirty(stat);
} finally {
unlock();
}
}
@Override
public void settingDoubleField(PersistenceCapable pc, int field,
double curVal, double newVal, int set) {
if (set != SET_REMOTE) {
if (newVal == curVal && _loaded.get(field))
return;
assertNoPrimaryKeyChange(field);
}
lock();
try {
Boolean stat = dirty(field, Boolean.FALSE, set == SET_USER);
_single.storeDoubleField(field, newVal);
replaceField(pc, _single, field);
postDirty(stat);
} finally {
unlock();
}
}
@Override
public void settingFloatField(PersistenceCapable pc, int field,
float curVal, float newVal, int set) {
if (set != SET_REMOTE) {
if (newVal == curVal && _loaded.get(field))
return;
assertNoPrimaryKeyChange(field);
}
lock();
try {
Boolean stat = dirty(field, Boolean.FALSE, set == SET_USER);
_single.storeFloatField(field, newVal);
replaceField(pc, _single, field);
postDirty(stat);
} finally {
unlock();
}
}
@Override
public void settingIntField(PersistenceCapable pc, int field,
int curVal, int newVal, int set) {
if (set != SET_REMOTE) {
if (newVal == curVal && _loaded.get(field))
return;
assertNoPrimaryKeyChange(field);
}
lock();
try {
Boolean stat = dirty(field, Boolean.FALSE, set == SET_USER);
_single.storeIntField(field, newVal);
replaceField(pc, _single, field);
postDirty(stat);
} finally {
unlock();
}
}
@Override
public void settingLongField(PersistenceCapable pc, int field,
long curVal, long newVal, int set) {
if (set != SET_REMOTE) {
if (newVal == curVal && _loaded.get(field))
return;
assertNoPrimaryKeyChange(field);
}
lock();
try {
Boolean stat = dirty(field, Boolean.FALSE, set == SET_USER);
_single.storeLongField(field, newVal);
replaceField(pc, _single, field);
postDirty(stat);
} finally {
unlock();
}
}
@Override
public void settingObjectField(PersistenceCapable pc, int field,
Object curVal, Object newVal, int set) {
if (set != SET_REMOTE) {
FieldMetaData fmd = _meta.getField(field);
if (_loaded.get(field)) {
if (newVal == curVal)
return;
// only compare new to old values if the comparison is going to
// be cheap -- don't compare collections, maps, UDTs
switch (fmd.getDeclaredTypeCode()) {
case JavaTypes.ARRAY:
case JavaTypes.COLLECTION:
case JavaTypes.MAP:
case JavaTypes.PC_UNTYPED:
break;
case JavaTypes.PC:
if (_meta.getField(field).isPrimaryKey()) {
// this field is a derived identity
//if (newVal != null && newVal.equals(curVal))
// return;
//else {
if (curVal != null && newVal != null &&
curVal instanceof PersistenceCapable && newVal instanceof PersistenceCapable) {
PersistenceCapable curPc = (PersistenceCapable) curVal;
PersistenceCapable newPc = (PersistenceCapable) newVal;
if (curPc.pcFetchObjectId().equals(newPc.pcFetchObjectId()))
return;
}
//}
} else
break;
default:
if (newVal != null && newVal.equals(curVal))
return;
}
} else {
// if this is a dependent unloaded field, make sure to load
// it now
if (fmd.getCascadeDelete() == ValueMetaData.CASCADE_AUTO
|| fmd.getKey().getCascadeDelete()
== ValueMetaData.CASCADE_AUTO
|| fmd.getElement().getCascadeDelete()
== ValueMetaData.CASCADE_AUTO)
curVal = fetchObjectField(field);
}
assertNoPrimaryKeyChange(field);
if (fmd.getDeclaredTypeCode() == JavaTypes.OID)
assertNotManagedObjectId(newVal);
}
lock();
try {
Boolean stat = dirty(field, Boolean.FALSE, set == SET_USER);
if (set != SET_REMOTE) {
_single.storeObjectField(field, curVal);
_single.unproxy();
_single.dereferenceDependent();
_single.clear();
}
_single.storeObjectField(field, newVal);
replaceField(pc, _single, field);
postDirty(stat);
} finally {
unlock();
}
}
@Override
public void settingShortField(PersistenceCapable pc, int field,
short curVal, short newVal, int set) {
if (set != SET_REMOTE) {
if (newVal == curVal && _loaded.get(field))
return;
assertNoPrimaryKeyChange(field);
}
lock();
try {
Boolean stat = dirty(field, Boolean.FALSE, set == SET_USER);
_single.storeShortField(field, newVal);
replaceField(pc, _single, field);
postDirty(stat);
} finally {
unlock();
}
}
@Override
public void settingStringField(PersistenceCapable pc, int field,
String curVal, String newVal, int set) {
if (set != SET_REMOTE) {
if (Objects.equals(newVal, curVal) && _loaded.get(field))
return;
assertNoPrimaryKeyChange(field);
}
lock();
try {
Boolean stat = dirty(field, Boolean.FALSE, set == SET_USER);
_single.storeStringField(field, newVal);
replaceField(pc, _single, field);
postDirty(stat);
} finally {
unlock();
}
}
/**
* Disallows changing primary key fields for instances.
*/
private void assertNoPrimaryKeyChange(int field) {
if (_oid != null && _meta.getField(field).isPrimaryKey())
throw translate(new InvalidStateException(_loc.get
("change-identity")).setFailedObject(getManagedInstance()));
}
/**
* Disallows setting an object id field to a managed instance.
*/
void assertNotManagedObjectId(Object val) {
if (val != null
&& (ImplHelper.toPersistenceCapable(val,
getContext().getConfiguration())).pcGetGenericContext()!= null)
throw translate(new InvalidStateException(_loc.get
("managed-oid", Exceptions.toString(val),
Exceptions.toString(getManagedInstance()))).
setFailedObject(getManagedInstance()));
}
////////////////////////////
// Delegate to FieldManager
////////////////////////////
@Override
public void providedBooleanField(PersistenceCapable pc, int field,
boolean curVal) {
_fm.storeBooleanField(field, curVal);
}
@Override
public void providedByteField(PersistenceCapable pc, int field,
byte curVal) {
_fm.storeByteField(field, curVal);
}
@Override
public void providedCharField(PersistenceCapable pc, int field,
char curVal) {
_fm.storeCharField(field, curVal);
}
@Override
public void providedDoubleField(PersistenceCapable pc, int field,
double curVal) {
_fm.storeDoubleField(field, curVal);
}
@Override
public void providedFloatField(PersistenceCapable pc, int field,
float curVal) {
_fm.storeFloatField(field, curVal);
}
@Override
public void providedIntField(PersistenceCapable pc, int field,
int curVal) {
_fm.storeIntField(field, curVal);
}
@Override
public void providedLongField(PersistenceCapable pc, int field,
long curVal) {
_fm.storeLongField(field, curVal);
}
@Override
public void providedObjectField(PersistenceCapable pc, int field,
Object curVal) {
_fm.storeObjectField(field, curVal);
}
@Override
public void providedShortField(PersistenceCapable pc, int field,
short curVal) {
_fm.storeShortField(field, curVal);
}
@Override
public void providedStringField(PersistenceCapable pc, int field,
String curVal) {
_fm.storeStringField(field, curVal);
}
@Override
public boolean replaceBooleanField(PersistenceCapable pc, int field) {
return _fm.fetchBooleanField(field);
}
@Override
public byte replaceByteField(PersistenceCapable pc, int field) {
return _fm.fetchByteField(field);
}
@Override
public char replaceCharField(PersistenceCapable pc, int field) {
return _fm.fetchCharField(field);
}
@Override
public double replaceDoubleField(PersistenceCapable pc, int field) {
return _fm.fetchDoubleField(field);
}
@Override
public float replaceFloatField(PersistenceCapable pc, int field) {
return _fm.fetchFloatField(field);
}
@Override
public int replaceIntField(PersistenceCapable pc, int field) {
return _fm.fetchIntField(field);
}
@Override
public long replaceLongField(PersistenceCapable pc, int field) {
return _fm.fetchLongField(field);
}
@Override
public Object replaceObjectField(PersistenceCapable pc, int field) {
return _fm.fetchObjectField(field);
}
@Override
public short replaceShortField(PersistenceCapable pc, int field) {
return _fm.fetchShortField(field);
}
@Override
public String replaceStringField(PersistenceCapable pc, int field) {
return _fm.fetchStringField(field);
}
//////////////////////////////////
// Implementation of FieldManager
//////////////////////////////////
@Override
public boolean fetchBoolean(int field) {
FieldMetaData fmd = _meta.getField(field);
if (!fmd.isExternalized())
return fetchBooleanField(field);
Object val = fetchField(field, false);
return (Boolean) fmd.getExternalValue(val, _broker);
}
@Override
public boolean fetchBooleanField(int field) {
lock();
try {
if (!_loaded.get(field))
loadField(field, LockLevels.LOCK_NONE, false, false);
provideField(_pc, _single, field);
return _single.fetchBooleanField(field);
} finally {
unlock();
}
}
@Override
public byte fetchByte(int field) {
FieldMetaData fmd = _meta.getField(field);
if (!fmd.isExternalized())
return fetchByteField(field);
Object val = fetchField(field, false);
return ((Number) fmd.getExternalValue(val, _broker)).byteValue();
}
@Override
public byte fetchByteField(int field) {
lock();
try {
if (!_loaded.get(field))
loadField(field, LockLevels.LOCK_NONE, false, false);
provideField(_pc, _single, field);
return _single.fetchByteField(field);
} finally {
unlock();
}
}
@Override
public char fetchChar(int field) {
FieldMetaData fmd = _meta.getField(field);
if (!fmd.isExternalized())
return fetchCharField(field);
Object val = fetchField(field, false);
return (Character) fmd.getExternalValue(val, _broker);
}
@Override
public char fetchCharField(int field) {
lock();
try {
if (!_loaded.get(field))
loadField(field, LockLevels.LOCK_NONE, false, false);
provideField(_pc, _single, field);
return _single.fetchCharField(field);
} finally {
unlock();
}
}
@Override
public double fetchDouble(int field) {
FieldMetaData fmd = _meta.getField(field);
if (!fmd.isExternalized())
return fetchDoubleField(field);
Object val = fetchField(field, false);
return ((Number) fmd.getExternalValue(val, _broker)).doubleValue();
}
@Override
public double fetchDoubleField(int field) {
lock();
try {
if (!_loaded.get(field))
loadField(field, LockLevels.LOCK_NONE, false, false);
provideField(_pc, _single, field);
return _single.fetchDoubleField(field);
} finally {
unlock();
}
}
@Override
public float fetchFloat(int field) {
FieldMetaData fmd = _meta.getField(field);
if (!fmd.isExternalized())
return fetchFloatField(field);
Object val = fetchField(field, false);
return ((Number) fmd.getExternalValue(val, _broker)).floatValue();
}
@Override
public float fetchFloatField(int field) {
lock();
try {
if (!_loaded.get(field))
loadField(field, LockLevels.LOCK_NONE, false, false);
provideField(_pc, _single, field);
return _single.fetchFloatField(field);
} finally {
unlock();
}
}
@Override
public int fetchInt(int field) {
FieldMetaData fmd = _meta.getField(field);
if (!fmd.isExternalized())
return fetchIntField(field);
Object val = fetchField(field, false);
return ((Number) fmd.getExternalValue(val, _broker)).intValue();
}
@Override
public int fetchIntField(int field) {
lock();
try {
if (!_loaded.get(field))
loadField(field, LockLevels.LOCK_NONE, false, false);
provideField(_pc, _single, field);
return _single.fetchIntField(field);
} finally {
unlock();
}
}
@Override
public long fetchLong(int field) {
FieldMetaData fmd = _meta.getField(field);
if (!fmd.isExternalized())
return fetchLongField(field);
Object val = fetchField(field, false);
return ((Number) fmd.getExternalValue(val, _broker)).longValue();
}
@Override
public long fetchLongField(int field) {
lock();
try {
if (!_loaded.get(field))
loadField(field, LockLevels.LOCK_NONE, false, false);
provideField(_pc, _single, field);
return _single.fetchLongField(field);
} finally {
unlock();
}
}
@Override
public Object fetchObject(int field) {
FieldMetaData fmd = _meta.getField(field);
if (!fmd.isExternalized())
return fetchObjectField(field);
Object val = fetchField(field, false);
return fmd.getExternalValue(val, _broker);
}
@Override
public Object fetchObjectField(int field) {
lock();
try {
if (!_loaded.get(field))
loadField(field, LockLevels.LOCK_NONE, false, false);
provideField(_pc, _single, field);
return _single.fetchObjectField(field);
} finally {
unlock();
}
}
@Override
public short fetchShort(int field) {
FieldMetaData fmd = _meta.getField(field);
if (!fmd.isExternalized())
return fetchShortField(field);
Object val = fetchField(field, false);
return ((Number) fmd.getExternalValue(val, _broker)).shortValue();
}
@Override
public short fetchShortField(int field) {
lock();
try {
if (!_loaded.get(field))
loadField(field, LockLevels.LOCK_NONE, false, false);
provideField(_pc, _single, field);
return _single.fetchShortField(field);
} finally {
unlock();
}
}
@Override
public String fetchString(int field) {
FieldMetaData fmd = _meta.getField(field);
if (!fmd.isExternalized())
return fetchStringField(field);
Object val = fetchField(field, false);
return (String) fmd.getExternalValue(val, _broker);
}
@Override
public String fetchStringField(int field) {
lock();
try {
if (!_loaded.get(field))
loadField(field, LockLevels.LOCK_NONE, false, false);
provideField(_pc, _single, field);
return _single.fetchStringField(field);
} finally {
unlock();
}
}
@Override
public void storeBoolean(int field, boolean externalVal) {
FieldMetaData fmd = _meta.getField(field);
if (!fmd.isExternalized())
storeBooleanField(field, externalVal);
else {
Object val = (externalVal) ? Boolean.TRUE : Boolean.FALSE;
storeField(field, fmd.getFieldValue(val, _broker));
}
}
@Override
public void storeBooleanField(int field, boolean curVal) {
lock();
try {
_single.storeBooleanField(field, curVal);
replaceField(_pc, _single, field);
setLoaded(field, true);
postLoad(field, null);
} finally {
unlock();
}
}
@Override
public void storeByte(int field, byte externalVal) {
FieldMetaData fmd = _meta.getField(field);
if (!fmd.isExternalized())
storeByteField(field, externalVal);
else
storeField(field, fmd.getFieldValue(externalVal,
_broker));
}
@Override
public void storeByteField(int field, byte curVal) {
lock();
try {
_single.storeByteField(field, curVal);
replaceField(_pc, _single, field);
setLoaded(field, true);
postLoad(field, null);
} finally {
unlock();
}
}
@Override
public void storeChar(int field, char externalVal) {
FieldMetaData fmd = _meta.getField(field);
if (!fmd.isExternalized())
storeCharField(field, externalVal);
else
storeField(field, fmd.getFieldValue(externalVal,
_broker));
}
@Override
public void storeCharField(int field, char curVal) {
lock();
try {
_single.storeCharField(field, curVal);
replaceField(_pc, _single, field);
setLoaded(field, true);
postLoad(field, null);
} finally {
unlock();
}
}
@Override
public void storeDouble(int field, double externalVal) {
FieldMetaData fmd = _meta.getField(field);
if (!fmd.isExternalized())
storeDoubleField(field, externalVal);
else
storeField(field, fmd.getFieldValue(externalVal, _broker));
}
@Override
public void storeDoubleField(int field, double curVal) {
lock();
try {
_single.storeDoubleField(field, curVal);
replaceField(_pc, _single, field);
setLoaded(field, true);
postLoad(field, null);
} finally {
unlock();
}
}
@Override
public void storeFloat(int field, float externalVal) {
FieldMetaData fmd = _meta.getField(field);
if (!fmd.isExternalized())
storeFloatField(field, externalVal);
else
storeField(field, fmd.getFieldValue(externalVal, _broker));
}
@Override
public void storeFloatField(int field, float curVal) {
lock();
try {
_single.storeFloatField(field, curVal);
replaceField(_pc, _single, field);
setLoaded(field, true);
postLoad(field, null);
} finally {
unlock();
}
}
@Override
public void storeInt(int field, int externalVal) {
FieldMetaData fmd = _meta.getField(field);
if (!fmd.isExternalized())
storeIntField(field, externalVal);
else
storeField(field, fmd.getFieldValue(externalVal,
_broker));
}
@Override
public void storeIntField(int field, int curVal) {
lock();
try {
_single.storeIntField(field, curVal);
replaceField(_pc, _single, field);
setLoaded(field, true);
postLoad(field, null);
} finally {
unlock();
}
}
@Override
public void storeLong(int field, long externalVal) {
FieldMetaData fmd = _meta.getField(field);
if (!fmd.isExternalized())
storeLongField(field, externalVal);
else
storeField(field, fmd.getFieldValue(externalVal,
_broker));
}
@Override
public void storeLongField(int field, long curVal) {
lock();
try {
_single.storeLongField(field, curVal);
replaceField(_pc, _single, field);
setLoaded(field, true);
postLoad(field, null);
} finally {
unlock();
}
}
@Override
public void storeObject(int field, Object externalVal) {
FieldMetaData fmd = _meta.getField(field);
externalVal = fmd.order(externalVal);
if (!fmd.isExternalized())
storeObjectField(field, externalVal);
else
storeField(field, fmd.getFieldValue(externalVal, _broker));
}
@Override
public void storeObjectField(int field, Object curVal) {
lock();
try {
_single.storeObjectField(field, curVal);
_single.proxy(true, false);
replaceField(_pc, _single, field);
setLoaded(field, true);
postLoad(field, null);
} finally {
unlock();
}
}
@Override
public void storeShort(int field, short externalVal) {
FieldMetaData fmd = _meta.getField(field);
if (!fmd.isExternalized())
storeShortField(field, externalVal);
else
storeField(field, fmd.getFieldValue(externalVal,
_broker));
}
@Override
public void storeShortField(int field, short curVal) {
lock();
try {
_single.storeShortField(field, curVal);
replaceField(_pc, _single, field);
setLoaded(field, true);
postLoad(field, null);
} finally {
unlock();
}
}
@Override
public void storeString(int field, String externalVal) {
FieldMetaData fmd = _meta.getField(field);
if (!fmd.isExternalized())
storeStringField(field, externalVal);
else
storeField(field, fmd.getFieldValue(externalVal, _broker));
}
@Override
public void storeStringField(int field, String curVal) {
lock();
try {
_single.storeStringField(field, curVal);
replaceField(_pc, _single, field);
setLoaded(field, true);
postLoad(field, null);
} finally {
unlock();
}
}
/**
* Store the given field value into the given field manager.
*/
private void storeField(int field, Object val, FieldManager fm) {
FieldMetaData fmd = _meta.getField(field);
if (fmd == null)
throw new UserException(_loc.get("no-field-index",
String.valueOf(field), _meta.getDescribedType())).
setFailedObject(getManagedInstance());
switch (fmd.getDeclaredTypeCode()) {
case JavaTypes.BOOLEAN:
boolean bool = val != null && (Boolean) val;
fm.storeBooleanField(field, bool);
break;
case JavaTypes.BYTE:
byte b = (val == null) ? 0 : ((Number) val).byteValue();
fm.storeByteField(field, b);
break;
case JavaTypes.CHAR:
char c = (val == null) ? 0 : (Character) val;
fm.storeCharField(field, c);
break;
case JavaTypes.DOUBLE:
double d = (val == null) ? 0 : ((Number) val).doubleValue();
fm.storeDoubleField(field, d);
break;
case JavaTypes.FLOAT:
float f = (val == null) ? 0 : ((Number) val).floatValue();
fm.storeFloatField(field, f);
break;
case JavaTypes.INT:
int i = (val == null) ? 0 : ((Number) val).intValue();
fm.storeIntField(field, i);
break;
case JavaTypes.LONG:
long l = (val == null) ? 0 : ((Number) val).longValue();
fm.storeLongField(field, l);
break;
case JavaTypes.SHORT:
short s = (val == null) ? 0 : ((Number) val).shortValue();
fm.storeShortField(field, s);
break;
case JavaTypes.STRING:
fm.storeStringField(field, (String) val);
break;
default:
fm.storeObjectField(field, val);
}
}
/////////////
// Utilities
/////////////
/**
* Erase the fact that this instance has been flushed.
*/
void eraseFlush() {
_flags &= ~FLAG_FLUSHED;
_flags &= ~FLAG_FLUSHED_DIRTY;
_flush = null;
}
/**
* Records that all instance fields are/are not loaded.
* Primary key and non-persistent fields are not affected.
*/
void setLoaded(boolean val) {
FieldMetaData[] fmds = _meta.getFields();
for (int i = 0; i < fmds.length; i++) {
if (!fmds[i].isPrimaryKey()
&& fmds[i].getManagement() == FieldMetaData.MANAGE_PERSISTENT)
setLoaded(i, val);
}
if (!val) {
_flags &= ~FLAG_LOADED;
setDirty(false);
} else
_flags |= FLAG_LOADED;
}
/**
* Records that all instance fields are/are not dirty,
* and changes the flags of the instance accordingly.
*/
void setDirty(boolean val) {
FieldMetaData[] fmds = _meta.getFields();
boolean update = !isNew() || isFlushed();
for (int i = 0; i < fmds.length; i++) {
if (val && (!update || fmds[i].getUpdateStrategy() != UpdateStrategies.IGNORE))
setFieldDirty(i);
else if (!val) {
// we never consider clean fields flushed; this also takes
// care of clearing the flushed fields on commit/rollback
clearFlushField(i);
clearDirty(i);
}
}
if (val)
_flags |= FLAG_LOADED;
}
/**
* Executes pre-clear callbacks, clears all managed fields, and calls the
* {@link #setLoaded} method with a value of false. Primary key fields
* are not cleared.
*/
void clearFields() {
if (!isIntercepting())
return;
fireLifecycleEvent(LifecycleEvent.BEFORE_CLEAR);
// unproxy all fields
unproxyFields();
lock();
try {
// clear non-pk fields
FieldMetaData[] fmds = _meta.getFields();
for (int i = 0; i < fmds.length; i++) {
if (!fmds[i].isPrimaryKey() && fmds[i].getManagement()
== FieldMetaData.MANAGE_PERSISTENT)
replaceField(_pc, ClearFieldManager.getInstance(), i);
}
// forget version info and impl data so we re-read next time
setLoaded(false);
_version = null;
_loadVersion = null;
if (_fieldImpl != null)
Arrays.fill(_fieldImpl, null);
} finally {
unlock();
}
fireLifecycleEvent(LifecycleEvent.AFTER_CLEAR);
}
/**
* Record that we should save any fields that change from this point
* forward.
*/
void saveFields(boolean immediate) {
if (_broker.getRestoreState() == RestoreState.RESTORE_NONE
&& (_flags & FLAG_INVERSES) == 0)
return;
_flags |= FLAG_SAVE;
if (immediate) {
for (int i = 0, len = _loaded.length(); i < len; i++)
saveField(i);
_flags &= ~FLAG_SAVE;
// OPENJPA-659
// record a saved field manager even if no field is currently loaded
// as existence of a SaveFieldManager is critical for a dirty check
if (_saved == null)
_saved = new SaveFieldManager(this, getPersistenceCapable(), getDirty());
}
}
/**
* If the field isn't already saved, saves the currently loaded field
* state of the instance. The saved values can all be restored via
* {@link #restoreFields}.
*/
private void saveField(int field) {
if ((_flags & FLAG_SAVE) == 0)
return;
// if this is a managed inverse field, load it so we're sure to have
// the original value
if (!_loaded.get(field) && ((_flags & FLAG_INVERSES) != 0
&& _meta.getField(field).getInverseMetaDatas().length > 0))
loadField(field, LockLevels.LOCK_NONE, false, false);
// don't bother creating the save field manager if we're not going to
// save the old field value anyway
if (_saved == null) {
if (_loaded.get(field))
_saved = new SaveFieldManager(this, null, getDirty());
else
return;
}
// copy the field to save field manager; if the field is not directly
// copyable, immediately provide and replace it via the save field
// manager, which will copy the mutable value to prevent by-ref mods
if (_saved.saveField(field)) {
provideField(_pc, _saved, field);
replaceField(_saved.getState(), _saved, field);
}
}
/**
* Notification that the state will not need to be rolled back
* to that of the last call to {@link #saveFields}.
*/
void clearSavedFields() {
if (isIntercepting()) {
_flags &= ~FLAG_SAVE;
_saved = null;
}
}
public SaveFieldManager getSaveFieldManager() {
return _saved;
}
/**
* Rollback the state of the instance to the saved state from the
* last call to {@link #saveFields}, or to default values if never saved.
*/
void restoreFields() {
lock();
try {
if (_saved == null) {
if ((_flags & FLAG_SAVE) == 0)
clearFields();
else // only unloaded fields were dirtied
_loaded.andNot(_loaded);
}
// we direct state transitions based on our own getRestoreState
// method, but to decide whether to actually rollback field
// values, we consult the broker for the user's setting
else if (_broker.getRestoreState() != RestoreState.RESTORE_NONE) {
// rollback all currently-loaded fields
for (int i = 0, len = _loaded.length(); i < len; i++)
if (_loaded.get(i) && _saved.restoreField(i))
replaceField(_pc, _saved, i);
// rollback loaded set
_loaded.andNot(_saved.getUnloaded());
}
}
finally {
unlock();
}
}
/**
* Replaces all second class object fields with fresh proxied instances
* containing the same information as the originals.
* <br>
* <B>Note:</B> Proxying is bypassed if {@link AutoDetach#DETACH_NONE} option is set.
*/
void proxyFields(boolean reset, boolean replaceNull) {
if (getBroker().getAutoDetach() == AutoDetach.DETACH_NONE)
return;
// we only replace nulls if the runtime can't differentiate between
// null and empty containers. we replace nulls in this case to
// maintain consistency whether values are being retained or not
if (replaceNull)
replaceNull = !_broker.getConfiguration().supportedOptions().
contains(OpenJPAConfiguration.OPTION_NULL_CONTAINER);
lock();
try {
for (FieldMetaData fmd : _meta.getProxyFields()) {
int index = fmd.getIndex();
// only reload if dirty
if (_loaded.get(index) && isFieldDirty(index)) {
provideField(_pc, _single, index);
if (_single.proxy(reset, replaceNull)) {
replaceField(_pc, _single, index);
} else {
_single.clear();
}
}
}
} finally {
unlock();
}
}
/**
* Unproxy all fields.
*/
void unproxyFields() {
if ((_flags & FLAG_NO_UNPROXY) != 0)
return;
lock();
try {
for (int i = 0, len = _loaded.length(); i < len; i++) {
provideField(_pc, _single, i);
_single.unproxy();
_single.releaseEmbedded();
_single.clear();
}
}
finally {
unlock();
}
}
/**
* Get ready for a flush. Persists all persistence-capable object fields,
* and checks for illegal null values. Also assigns oids and field values
* for all strategies that don't require flushing.
*/
void preFlush(boolean logical, OpCallbacks call) {
if ((_flags & FLAG_PRE_FLUSHED) != 0)
return;
if (isPersistent()) {
fireLifecycleEvent(LifecycleEvent.BEFORE_STORE);
// BEFORE_PERSIST is handled during Broker.persist and Broker.attach
if (isDeleted())
fireLifecycleEvent(LifecycleEvent.BEFORE_DELETE);
else if (!(isNew() && !isFlushed())
&& (ImplHelper.getUpdateFields(this) != null))
fireLifecycleEvent(LifecycleEvent.BEFORE_UPDATE);
_flags |= FLAG_PRE_FLUSHED;
}
lock();
try {
if (!logical)
assignObjectId(false, true);
for (int i = 0, len = _meta.getFields().length; i < len; i++) {
if ((logical || !assignField(i, true)) && !isFieldFlushed(i) && isFieldDirty(i)) {
provideField(_pc, _single, i);
if (_single.preFlush(logical, call))
replaceField(_pc, _single, i);
else
_single.clear();
}
}
dirtyCheck();
} finally {
unlock();
}
}
/**
* Make callbacks for deletion.
*/
void preDelete() {
// set a flag while call pre delete callback so that user can't
// get into infinite recursion by calling delete(this)
// within his callback method
if ((_flags & FLAG_PRE_DELETING) == 0) {
_flags |= FLAG_PRE_DELETING;
try {
fireLifecycleEvent(LifecycleEvent.BEFORE_DELETE);
} finally {
_flags &= ~FLAG_PRE_DELETING;
}
}
}
/**
* Cascade deletes and dereference dependent fields.
*/
void cascadeDelete(OpCallbacks call) {
FieldMetaData[] fmds = _meta.getFields();
for (int i = 0; i < fmds.length; i++) {
if (fmds[i].getCascadeDelete() != ValueMetaData.CASCADE_NONE
|| fmds[i].getKey().getCascadeDelete()
!= ValueMetaData.CASCADE_NONE
|| fmds[i].getElement().getCascadeDelete()
!= ValueMetaData.CASCADE_NONE) {
_single.storeObjectField(i, fetchField(i, false));
_single.delete(call);
_single.clear();
}
}
}
/**
* Called after an instance is persisted by a user through the broker.
* Cascades the persist operation to fields marked
* {@link ValueMetaData#CASCADE_IMMEDIATE}.
*/
void cascadePersist(OpCallbacks call) {
FieldMetaData[] fmds = _meta.getFields();
for (int i = 0; i < fmds.length; i++) {
if (!_loaded.get(i))
continue;
if (fmds[i].getCascadePersist() == ValueMetaData.CASCADE_IMMEDIATE
|| fmds[i].getKey().getCascadePersist() == ValueMetaData.CASCADE_IMMEDIATE
|| fmds[i].getElement().getCascadePersist() == ValueMetaData.CASCADE_IMMEDIATE) {
_single.storeObjectField(i, fetchField(i, false));
_single.persist(call);
_single.clear();
}
}
}
/**
* Load the given field set from the data store into the instance.
* Return true if any data is loaded, false otherwise.
*/
boolean loadFields(BitSet fields, FetchConfiguration fetch, int lockLevel,
Object sdata) {
// can't load version field from store
if (fields != null) {
FieldMetaData vfield = _meta.getVersionField();
if (vfield != null)
fields.clear(vfield.getIndex());
}
boolean ret = false;
setLoading(true);
try {
// if any fields given, load them
int len = (fields == null) ? 0 : fields.length();
if (len > 0) {
if (fetch == null)
fetch = _broker.getFetchConfiguration();
if (!_broker.getStoreManager().load(this, fields, fetch, lockLevel, sdata)) {
throw new ObjectNotFoundException(_loc.get("del-instance", _meta.getDescribedType(), _oid)).
setFailedObject(getManagedInstance());
}
ret = true;
}
// make sure version information has been set; version info must
// always be set after the first state load or set (which is why
// we do this even if no fields were loaded -- could be that this
// method is being called after a field is set)
// If the _loadVersion field is null AND the version field has been loaded, skip calling sync version.
// This indicates that the DB has a null value for the version column.
FieldMetaData versionMeta = _meta != null ? _meta.getVersionField() : null;
if (_loadVersion == null && (versionMeta != null && !_loaded.get(versionMeta.getIndex()))) {
syncVersion(sdata);
ret = ret || _loadVersion != null;
}
}
finally {
setLoading(false);
}
// see if the dfg is now loaded; do this regardless of whether we
// loaded any fields, cause may already have been loaded by
// StoreManager during initialization
postLoad(-1, fetch);
return ret;
}
/**
* Load the given field's fetch group; the field itself may already be
* loaded if it is being set by the user.
*/
protected void loadField(int field, int lockLevel, boolean forWrite,
boolean fgs) {
FetchConfiguration fetch = _broker.getFetchConfiguration();
FieldMetaData fmd = _meta.getField(field);
BitSet fields = null;
boolean unloadedDFGFieldMarked = false;
// if this is a dfg field or we need to load our dfg, do so
if (fgs && (_flags & FLAG_LOADED) == 0){
fields = getUnloadedInternal(fetch, LOAD_FGS, null);
unloadedDFGFieldMarked = true;
}
// check for load fetch group
String lfg = fmd.getLoadFetchGroup();
boolean lfgAdded = false;
if (lfg != null) {
FieldMetaData[] fmds = _meta.getFields();
for (int i = 0; i < fmds.length; i++) {
if (!_loaded.get(i) && (i == field
|| fmds[i].isInFetchGroup(lfg))) {
if (fields == null)
fields = new BitSet(fmds.length);
fields.set(i);
}
}
// relation field is loaded with the load-fetch-group
// but this addition must be reverted once the load is over
if (!fetch.hasFetchGroup(lfg)) {
fetch.addFetchGroup(lfg);
lfgAdded = true;
}
} else if (fetch.hasFetchGroup(FetchGroup.NAME_DEFAULT) && fmd.isInDefaultFetchGroup() && fields == null) {
// no load group but dfg: add dfg fields if we haven't already
if (!unloadedDFGFieldMarked)
fields = getUnloadedInternal(fetch, LOAD_FGS, null);
} else if (!_loaded.get(fmd.getIndex())) {
// no load group or dfg: load individual field
if (fields == null)
fields = new BitSet();
fields.set(fmd.getIndex());
}
// call this method even if there are no unloaded fields; loadFields
// takes care of things like loading version info and setting PC flags
try {
loadFields(fields, fetch, lockLevel, null);
} finally {
if (lfgAdded)
fetch.removeFetchGroup(lfg);
}
}
/**
* Helper method to provide the given field number to the given
* field manager.
*/
void provideField(PersistenceCapable pc, FieldManager store, int field) {
if (pc != null) {
FieldManager beforeFM = _fm;
_fm = store;
pc.pcProvideField(field);
// Retaining original FM because of the possibility of reentrant calls
if (beforeFM != null) _fm = beforeFM;
}
}
/**
* Helper method to replace the given field number to the given
* field manager.
*/
void replaceField(PersistenceCapable pc, FieldManager load, int field) {
FieldManager beforeFM = _fm;
_fm = load;
pc.pcReplaceField(field);
// Retaining original FM because of the possibility of reentrant calls
if (beforeFM != null) _fm = beforeFM;
}
/**
* Mark the field as loaded or unloaded.
*/
private void setLoaded(int field, boolean isLoaded) {
// don't continue if loaded state is already correct; otherwise we
// can end up clearing _fieldImpl when we shouldn't
if (_loaded.get(field) == isLoaded)
return;
// if loading, clear intermediate data; if unloading, clear impl data
if (_fieldImpl != null) {
int idx = _meta.getExtraFieldDataIndex(field);
if (idx != -1)
_fieldImpl[idx] = null;
}
if (isLoaded)
_loaded.set(field);
else
_loaded.clear(field);
}
/**
* Set to <code>false</code> to prevent the postLoad method from
* sending lifecycle callback events.
*/
public void setPostLoadCallback(boolean enabled) {
this.postLoadCallback = enabled;
}
/**
* Perform post-load steps, including the post load callback.
* We have to check the dfg after all field loads because it might be
* loaded in multiple steps when paging is involved; the initial load
* might exclude some fields which are then immediately loaded in a
* separate step before being returned to the user.
*
* @param field the field index that was loaded, or -1 to indicate
* that a group of possibly unknown fields was loaded
*/
private void postLoad(int field, FetchConfiguration fetch) {
// no need for postLoad callback?
if ((_flags & FLAG_LOADED) != 0)
return;
// in the middle of a group load, after which this method will be
// called again?
if (field != -1 && isLoading())
return;
// no listeners?
LifecycleEventManager mgr = _broker.getLifecycleEventManager();
if (mgr == null || !mgr.isActive(_meta) || !mgr.hasLoadListeners(getManagedInstance(), _meta))
return;
if (fetch == null)
fetch = _broker.getFetchConfiguration();
// is this field a post-load field?
if (field != -1) {
FieldMetaData fmd = _meta.getField(field);
if (fmd.isInDefaultFetchGroup()
&& fetch.hasFetchGroup(FetchGroup.NAME_DEFAULT)
&& postLoad(FetchGroup.NAME_DEFAULT, fetch))
return;
String[] fgs = fmd.getCustomFetchGroups();
for (int i = 0; i < fgs.length; i++)
if (fetch.hasFetchGroup(fgs[i]) && postLoad(fgs[i], fetch))
return;
} else {
for (Iterator itr = fetch.getFetchGroups().iterator();
itr.hasNext();) {
if (postLoad((String) itr.next(), fetch))
return;
}
}
}
/**
* Perform post-load actions if the given fetch group is a post-load group
* and is fully loaded.
*/
private boolean postLoad(String fgName, FetchConfiguration fetch) {
FetchGroup fg = _meta.getFetchGroup(fgName);
if (fg == null || !fg.isPostLoad())
return false;
FieldMetaData[] fmds = _meta.getFields();
for (int i = 0; i < fmds.length; i++)
if (!_loaded.get(i) && fmds[i].isInFetchGroup(fgName))
return false;
_flags |= FLAG_LOADED;
if (postLoadCallback)
_broker.fireLifecycleEvent(getManagedInstance(), fetch, _meta, LifecycleEvent.AFTER_LOAD);
return true;
}
/**
* Synchronize our version object with the datastore.
*/
private boolean syncVersion(Object sdata) {
return _broker.getStoreManager().syncVersion(this, sdata);
}
/**
* Returns whether this instance needs a version check.
*/
@Override
public boolean isVersionCheckRequired() {
// explicit flag for version check
if ((_flags & FLAG_VERSION_CHECK) != 0)
return true;
if (!_broker.getOptimistic() && !_broker.getConfiguration().
getCompatibilityInstance().getNonOptimisticVersionCheck())
return false;
return _state.isVersionCheckRequired(this);
}
/**
* Set whether this instance requires a version check on the next flush.
*/
void setCheckVersion(boolean versionCheck) {
if (versionCheck)
_flags |= FLAG_VERSION_CHECK;
else
_flags &= ~FLAG_VERSION_CHECK;
}
/**
* Returns whether this instance needs a version update.
*/
@Override
public boolean isVersionUpdateRequired() {
return (_flags & FLAG_VERSION_UPDATE) > 0;
}
/**
* Set whether this instance requires a version update on the next flush.
*/
void setUpdateVersion(boolean versionUpdate) {
if (versionUpdate)
_flags |= FLAG_VERSION_UPDATE;
else
_flags &= ~FLAG_VERSION_UPDATE;
}
/**
* Translate the given exception based on the broker's implicit behavior.
* Translation only occurs if the exception is initiated by a user action
* on an instance, and therefore will not be caught and translated by the
* broker.
*/
protected RuntimeException translate(RuntimeException re) {
RuntimeExceptionTranslator trans = _broker.getInstanceExceptionTranslator();
return (trans == null) ? re : trans.translate(re);
}
/**
* Lock the state manager if the multithreaded option is set.
*/
protected void lock() {
if (_instanceLock != null)
_instanceLock.lock();
}
/**
* Unlock the state manager.
*/
protected void unlock () {
if (_instanceLock != null)
_instanceLock.unlock();
}
private void writeObject(ObjectOutputStream oos) throws IOException {
oos.writeObject(_broker);
oos.defaultWriteObject();
oos.writeObject(_meta.getDescribedType());
writePC(oos, _pc);
}
/**
* Write <code>pc</code> to <code>oos</code>, handling internal-form
* serialization. <code>pc</code> must be of the same type that this
* state manager manages.
*
* @since 1.1.0
*/
void writePC(ObjectOutputStream oos, PersistenceCapable pc)
throws IOException {
if (!Serializable.class.isAssignableFrom(_meta.getDescribedType()))
throw new NotSerializableException(_meta.getDescribedType().getName());
oos.writeObject(pc);
}
private void readObject(ObjectInputStream in)
throws IOException, ClassNotFoundException {
_broker = (BrokerImpl) in.readObject();
in.defaultReadObject();
// we need to store the class before the pc instance so that we can
// create _meta before calling readPC(), which relies on _meta being
// non-null when reconstituting ReflectingPC instances. Sadly, this
// penalizes the serialization footprint of non-ReflectingPC SMs also.
Class managedType = (Class) in.readObject();
_meta = _broker.getConfiguration().getMetaDataRepositoryInstance()
.getMetaData(managedType, null, true);
_pc = readPC(in);
}
/**
* Converts the deserialized <code>o</code> to a {@link PersistenceCapable}
* instance appropriate for storing in <code>_pc</code>.
*
* @since 1.1.0
*/
PersistenceCapable readPC(ObjectInputStream in)
throws ClassNotFoundException, IOException {
Object o = in.readObject();
if (o == null)
return null;
PersistenceCapable pc;
if (!(o instanceof PersistenceCapable))
pc = ImplHelper.toPersistenceCapable(o, this);
else
pc = (PersistenceCapable) o;
pc.pcReplaceStateManager(this);
return pc;
}
public List<FieldMetaData> getMappedByIdFields() {
return _mappedByIdFields;
}
public boolean requiresFetch(FieldMetaData fmd) {
return (_broker.getFetchConfiguration().requiresFetch(fmd) != FetchConfiguration.FETCH_NONE);
}
public void setPc(PersistenceCapable pc) {
_pc = pc;
}
public void setBroker(BrokerImpl ctx) {
_broker = ctx;
}
@Override
public BitSet getFlushed() {
if (_flush == null) {
_flush = new BitSet(_meta.getFields().length);
}
return _flush;
}
private boolean isFieldFlushed(int index) {
if (_flush == null) {
return false;
}
return _flush.get(index);
}
/**
* Will clear the bit at the specified if the _flush BetSet has been created.
*/
private void clearFlushField(int index) {
if (_flush != null) {
getFlushed().clear(index);
}
}
@Override
public BitSet getDirty() {
if (_dirty == null) {
_dirty = new BitSet(_meta.getFields().length);
}
return _dirty;
}
private boolean isFieldDirty(int index) {
if (_dirty == null) {
return false;
}
return _dirty.get(index);
}
private void setFieldDirty(int index) {
getDirty().set(index);
}
/**
* Will clear the bit at the specified index if the _dirty BetSet has been created.
*/
private void clearDirty(int index) {
if (_dirty != null) {
getDirty().clear(index);
}
}
@Override
public String toString() {
return "SM[" + _meta.getDescribedType().getSimpleName() + "]:" + getObjectId();
}
}